Mercury United Electronics Inc. Category

Are you ready to use today’s cutting edge technology? Mercury United has your Timing Solutions   Low Current Draw: The “HK” Series quartz crystal oscillator consumes only 0.7 mA ~ 5 mA of current when active and less than 2 µA when disabled (frequency & supply voltage dependent)   Low Supply Voltage: The “H” & “SWO” Series quartz crystal oscillators operate with a supply voltage as low as +1.0 V and consumes from 2 mA to 4 mA maximum of current, prolonging battery life   Ultra Low Phase Jitter: TheRead More
Mercury United Electronics, Inc. +1.8V Ultra Low Current Crystal Oscillator Datasheets: Datasheet: Details: 18HK53 +1.8V, 5.0×3.2×1.2mm 25HK53 +2.5V, 5.0×3.2×1.2mm 3HK53 +3.3V, 5.0×3.2×1.2mm 18HK57 +1.8V, 5.0×7.0x1.4mm 25HK57 +2.5V, 5.0×7.0x1.4mm 3HK57 +3.3V, 5.0×7.0x1.4mm Mercury United Electronics, Inc. Mercury United Electronics is a quartz crystal manufacturer of frequency control products that includes Crystals, Oscillators, Low EMI Spread Spectrum Clock Oscillators, (Quick-Turn) TCXO’s, VCTCXO’s, VCXO’s, OCXO’s and Monolithic Crystal Filters. About Component Distributors Inc. Component Distributors, Inc. (CDI) is a value-added distributor of high-performance LED, power, rf & microwave, wireless and sensor component technologies.Read More
Monolithic Crystal Filters 4 Poles in One 5.0 x 7.0 mm Surface Mount Package These monolithic crystal filters feature high quality resonators with sharp cutoff characteristics, low loss, good inter-modulation and a high stability over a wide temperature range. Product Description: • Frequency Range: 21.4 MHz ~ 45.0 MHz • 4 Poles in One Surface Mount Package • 5.0 x 7.0 x 1.3 mm, 6 Pads • Operating Temperature Range: -20° ~ 70°C Applications: • GPS • Communication Systems • Cellular & Cordless Phones • RF Applications • Radio BaseRead More
Micro Power Inductive Proximity Sensor from Mercury United Electronics – Available at CDI This USA Patented [No. 9,140,579] sensor utilized CMOS IC sensor technology is ideal for portable & battery operated applications. L1T2 Series 2-Wire is compatible with most types of computers for portable robotics, motor controls & automation. The micro power inductive proximity sensors easily recognize difficult-to-detect objects, such as small, thin and bright metals. L1T2 Series 2-Wire L1T3M Series 3-Wire Features: • The Sensor Industry’s Lowest Operating Current: 4µA max. at +3.0V (Open) • The Lowest Power SupplyRead More
Low Power (nA Current Consumption) 32.768 KHz TCXOs from Mercury United Electronic Inc. at CDI ME831, ME832, ME833, ME834 Series   • ME83x is a 32.768 KHz CMOS output TCXO, with a maximum frequency stability of ±5 ppm over -40 to +85°C. Click here to download the datasheet. • A proprietary temperature compensation technique is applied to the built-in X-cut 32.768 KHz tuning fork crystal and temperature sensor. • A 400 nA current consumption makes it ideal for battery-operated devices. • The 5x7x1.8 mm ceramic SMD package is ideal forRead More
Mercury United Electronics Quick Turn Quartz Crystal Oscillators (XO) and Voltage Controlled Crystal Oscillators (VCXO) up to 1450 MHz (CMOS / LVPECL / LVDS Outputs) XO and VCXO FEATURES: Series: XO (HTQF / HPQF / HDQF) VCXO (GTQF / GPQF / GDQF) Output Type: CMOS / LVPECL / LVDS Supply Voltages: +2.5V or +3.3V Available Frequency Range: 10 MHz to 1450 MHz Voltage Control (VCXO only): ±100 ppm min. (+1.65V ~ ±1.35V) Package Size: 5.0 x 3.2 x 1.2 (H) mm 5.0 x 7.0 x 1.8 (H) mm Stabilities (fromRead More
For many designers, designing a circuit with minimum Electro-Magnetic Interference (EMI) emissions is a challenge. Mercury United Electronics has a family of clock oscillator products that can lower the level of undesired signals before they are ever generated. A system clock is frequently one of the largest contributors to EMI issues, since it is distributed throughout the entire design. With a spread-spectrum clock oscillator, the amount of energy that would normally be contained in a single frequency is spread out, reducing the amount of energy by -10 dB or moreRead More